Introduction to the Human Body Chapter 1

Anatomy and Physiology? - science of structure - relationships revealed by dissection and imaging techniques Physiology - science of body functions

Levels of Organization

Systems of the Human Body

Systems of the Human Body

Systems of the Human Body

Systems of the Human Body

Systems of the Human Body

Systems of the Human Body

Basic Life Processes Metabolism Responsiveness - Sum of all the chemical process that occur in the body - Catabolism: the breakdown of complex chemical substances into simpler components - Anabolism: the building up of complex chemical substances from smaller, simpler components Responsiveness - Body’s ability to detect and respond to changes - Decrease in body temperature - Responding to sound - Nerve (electrical signals) and muscle cells (contracting)

Basic Life Processes Movement Growth Differentiation - Motion of the whole body - Organs, cells, and tiny subcellular structures - Leg muscles move the body from one place to another Growth - Increase in body size - Due to an increase in existing cells, number of cells, or both - In bone growth materials between cells increase Differentiation - Development of a cell from an unspecialized to specialized state - Cells have specialized structures/functions that differ from precursor cells - Stem cells give rise to cells that undergo differentiation Reproduction - Formation of new cells (growth, repair, or replacement) - Production of a new individual

Homeostasis A condition of equilibrium in the body’s internal environment. Maintaining the internal environment within physiological limits is extremely important. Homeostasis is continually being disrupted by different stimuli: external stimuli: intense heat, cold , and lack of oxygen internal stimuli: psychological stresses, exercise Disruptions are usually mild & temporary If homeostasis is not maintained, death may result.

Body Fluids Fluid compartments Intracellular fluid (ICF) - fluid within cells Extracellular fluid (ECF) - fluid outside cells - Interstitial fluid – ECF between cells and tissues ICF ECF

ECF Types and Locations Blood Plasma - ECF within blood vessels Lymph - ECF within lymphatic vessels Cerebrospinal fluid (CSF) - ECF in the brain and spinal cord Synovial fluid - ECF in joints Aqueous humor and vitreous body - ECF in eyes

Interstitial Fluid and Body Function Cellular function depends on the regulation of composition of interstitial fluid Composition of interstitial fluid changes as it moves Movement back and forth across capillary walls provide nutrients (glucose, oxygen, ions) to tissue cells and removes waste (carbon dioxide)

Control of Homeostasis Homeostasis is constantly being disrupted Physical insults Intense heat or lack of oxygen Changes in the internal environment Drop in blood glucose due to lack of food Physiological stress Demands of work or school Disruptions Mild and temporary (balance is quickly restored) Intense and Prolonged (poisoning or severe infections)

Control of Homeostasis Feedback Loops Receptor monitors a controlled condition Control center determines next action Effector receives directions from the control center produces a response that changes the controlled condition

Negative & Positive Feedback Loops Negative feedback loop original stimulus reversed most feedback systems in the body are negative used for conditions that need frequent adjustment body temperature, blood sugar levels, blood pressure Positive feedback loop original stimulus intensified seen during normal childbirth

Homeostatic Imbalances Disorder: abnormality of function Disease: homeostatic imbalance with distinct - Symptoms: changes in body function felt by the patient such as nausea Signs: changes in body function that can be observed by the doctor such as rash or fever Diagnosis: skill of distinguishing one disease from another Epidemiology: how a disease is transmitted Pharmacology: how drugs used to treat disease

Basic Anatomical Terminology Anatomical position Regions of the body Directional terms Anatomical planes and sections Body Cavities Abdominopelvic regions and quadrants

Anatomical Position Standardized position from which to describe directional terms standing upright facing the observer, head level eyes facing forward feet flat on the floor arms at the sides palms turned forward Prone position = lying face down Supine position = lying face up anatomical position?

Regional Terms

Directional Terms

Directional Terms

Body Planes Sagittal midsagittal parasagittal Frontal/Coronal Transverse/Horizontal Oblique

Body Planes and Sections

Body Planes and Sections

Body Planes and Sections

Body Cavities

Body Cavities - Thoracic Encircled by ribs, sternum, vertebral column and muscle Divided into 2 pleural cavities by mediastinum Mediastinum contains all thoracic organs except lungs

Body Cavities - Thoracic

Body Cavities - Thoracic

Abdominopelvic Cavity Inferior portion of ventral body cavity below diaphragm Encircled by abdominal wall, bones & muscles of pelvis

Serous Membranes Membrane on the organ is called visceral Membrane on the wall of the cavity is called the parietal

Pleural & Pericardial Membranes Visceral pleura clings to surface of lungs --- Parietal pleura lines chest wall Visceral pericardium covers heart --- Parietal pericardium lines pericardial sac

Peritoneum Visceral peritoneum --- serous membrane that covers the abdominal viscera (organs) Parietal peritoneum - -- serous membrane that lines the abdominal wall

Abdominopelvic Regions and Quadrants

Medical Imaging Allows visualization of structures without surgery Useful for confirmation of diagnosis Examples: Radiography Ultrasound (US) CT PET MRI Radionuclide scanning Endoscopy

Radiography

Radiography

Radiography

Radiography

Radiography

Radiography

Computed Tomography (CT Scan)

Magnetic Resonance Imaging (MRI)

Ultrasound (US)

Positron Emission Tomography (PET)

Radionuclide Scanning

Endoscopy